In the presented work we consider the dynamics of the mechanical system under internal force with a damper taking into account the hysteretic nature of the damper. As a mathematical model of this hysteretic damper we consider the Bouc-Wen model. The obtained numerical results in the form of the force transfer function demonstrates the efficiency of the hysteretic damper in comparison with the nonlinear viscous damper.This work is supported by the RFBR grant No 16-08-00312, 17-01-00251
Damping of mechanical vibrations is often realized by viscous dampers with nonlinear characteristic....
Hysteretic behaviour characterizes elements of a wide class of mechanical systems: the dependence of...
International audienceA mathematical model is presented that expresses the viscous and hysteretic da...
In this paper we consider the mathematical model of hysteretic damper based on the Ishlinsky-Prandtl...
This paper considers and reviews a number of known phenomenological models, used to describe hystere...
The dynamics of a mechanical system consisting of a parallel-connected main elastic element, an exte...
The review presents developments concerning the modelling of vibration control systems with hysteres...
The present paper deals with the dynamics of a two-degrees-of freedom system consisting of a nonline...
The dynamic behavior of a 2DOF system consisting of a primary structure and a hysteretic vibration ...
The response of single and two-degree-of-freedom mechanical systems with elements exhibiting a hyste...
In this paper, the phenomenological Bouc-Wen model is analyzed as it has found wide application for ...
AbstractBouc-Wen model is one of the most widely used parametric models of hysteresis in mechanics. ...
Experimental observations have shown that the dissipation per cycle in many materials does not depen...
In civil engineering, structural elements characterized by hysteresis are often encountered, such as...
This work formulates a method for the modeling of material damping characteristics in distributed pa...
Damping of mechanical vibrations is often realized by viscous dampers with nonlinear characteristic....
Hysteretic behaviour characterizes elements of a wide class of mechanical systems: the dependence of...
International audienceA mathematical model is presented that expresses the viscous and hysteretic da...
In this paper we consider the mathematical model of hysteretic damper based on the Ishlinsky-Prandtl...
This paper considers and reviews a number of known phenomenological models, used to describe hystere...
The dynamics of a mechanical system consisting of a parallel-connected main elastic element, an exte...
The review presents developments concerning the modelling of vibration control systems with hysteres...
The present paper deals with the dynamics of a two-degrees-of freedom system consisting of a nonline...
The dynamic behavior of a 2DOF system consisting of a primary structure and a hysteretic vibration ...
The response of single and two-degree-of-freedom mechanical systems with elements exhibiting a hyste...
In this paper, the phenomenological Bouc-Wen model is analyzed as it has found wide application for ...
AbstractBouc-Wen model is one of the most widely used parametric models of hysteresis in mechanics. ...
Experimental observations have shown that the dissipation per cycle in many materials does not depen...
In civil engineering, structural elements characterized by hysteresis are often encountered, such as...
This work formulates a method for the modeling of material damping characteristics in distributed pa...
Damping of mechanical vibrations is often realized by viscous dampers with nonlinear characteristic....
Hysteretic behaviour characterizes elements of a wide class of mechanical systems: the dependence of...
International audienceA mathematical model is presented that expresses the viscous and hysteretic da...